Abstract
The external heat load of residential buildings in summer is the dominant parameter of the required cooling load and refrigeration capacity of air conditioning systems. The consumed energy of air conditioning system is proportional to the outside conditions and intensity of solar radiation. The maximum heat load of building may occur at 3 O’clock PM, although the peak of solar radiation occurs at noon. The construction materials of building is playing an important rolls of heat transmission through buildings outside walls and glazing windows. The walls thermal insulation can be effective in energy conservation by reducing the cooling load and required electrical energy. The building is constructed from common materials with 0~12 cm thermal insulation in outside walls, ceilings, and double layers glazing windows. The building heat loads are calculated for two models of walls. The optimum thickness of thermal insulation is also determined and is found between 6~8 cm for insulation of thermal conductivity of 0.039 W/m.K the energy saving is 50.45% at 6 cm insulation thickness.
Highlights
The buildings heat load is proportional to the heat transmission through outside walls, ceiling, floor, and glasses windows
The walls Model B is typical as Model A of construction materials in addition of 0~12cm thermal insulation of 0.039 W/m.K in outside walls, floor, and ceiling
To investigate the effect of thermal insulation thickness on the building heat load, we assumed all parameters are constant except insulation thickness, and the inside conditions are maintained at 24 oC and 50 % relative humidity
Summary
The buildings heat load is proportional to the heat transmission through outside walls, ceiling, floor, and glasses windows. The thermal insulation is an effective tool to achieve the minimum heat transmission in buildings. It is inevitable to determine an optimum insulation thickness by considering economic analysis. A few studies estimated the transmission load through the exterior wall into room by using numerical method [5,6], which neglects the effect of moisture transfer on heat transmission. The results showed that the increase of insulation thickness has a significant effect on the building heat load. The objective of the present study is to determine the optimum thermal insulation thickness of building walls. The hourly buildings heat load with cooling load temperature deference, CLTD method are estimated at various thermal insulation thickness. The optimum insulation thickness and percentage decrease of the building heat loads are investigated
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